Classroom Training
- All Classroom Training
- Design & Simulation
- Failure Analysis
- Material
- All Classroom Training
- Design & Simulation
- Failure Analysis
- Material
CL01 Crane Design in accordance with EN 13001 series of standards
Master the scientific basis and the essential rules of crane design, in accordance with EN 13001 series of standards…
19th – 21st October 2021
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MTS17 Introduction to Vibration Study and Its Effects
Mechanical or structure vibration occurs everywhere, be it in our homes, at work or during transportation.
10th November 2021
MTS18 Vibration Studies & Its Measurement & Control – 1st & 2nd December 2021
Mechanical vibration refers to the oscillating motion of an object about a reference position.
1st & 2nd December 2021
MTS01: Failure Analysis and Forensic Investigation
Failure of components or sometimes the entire structure often pose significant impact and threats to safety, economic and even to environmental issues.
14th & 15th December 2021
MTS02/03: Failure and Damage Mechanisms of Pressurized Equipment in General and refining Petrochemical Industries (with reference to API 571)
ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA
MTS02: Corrosion Fundamentals for Engineers and Inspectors
Although corrosion is regarded as nature’s way of converting a refined metal to a more stable form, its impact…
TBA
MTS03/04: 04Failure and Damage Mechanisms Affecting Fixed Equipment (with reference to API 571)
ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA
MTS03: Failure and Damage Mechanisms Affecting Fixed Equipment – Part I
ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA
MTS04: Failure and Damage Mechanisms of Pressurized Equipment in Refining/Petrochemical. Industries Part II
ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA
MTS02: Corrosion Fundamentals for Engineers and Inspectors
Although corrosion is regarded as nature’s way of converting a refined metal to a more stable form, its impact…
TBA
MTS06: Failure Analysis of Mechanical Power Transmission Components
Understand the causes of failures of power transmission components (shaft, gears and bearings) to better avoid them. Implement appropriate corrective actions using a structured failure analysis approach.
TBA
MTS03/04: Failure and Damage Mechanisms Affecting Fixed Equipment- Part I & II (Refining/Petrochemical Industrial)
ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA
MTS03: Failure and Damage Mechanisms Affecting Fixed Equipment- Part I
ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA
MTS04: Failure and Damage Mechanisms Affecting Fixed Equipment – Part II
ASME and API codes are commonly referred to for the design, fabrication, inspection, and testing of pressurized equipment.
TBA
MTS08: Gear Tribology and Associated Failures
Understand the mechanisms of tooth surface damages on gears and tribology of gears to identify the causes of the failures and avoid disruptions to operations
TBA
MTS07 Gears – From Design to Implementation
Discover the key elements needed to achieve quality gears and be more efficient in your discussions with experts
TBA